high pressure technology hydraulics pneumatics …...1 tool hydraulics 1 clamping hydraulics 1 water...
TRANSCRIPT
MAXIMATOR GmbH
HIGH PRESSURETECHNOLOGYHYDRAULICSPNEUMATICS
TESTINGEQUIPMENT
50 bar (725 psi)
500 bar (7,250 psi)
1,500 bar (21,750 psi)
2
ÜberschriftIndex
Company portrait 3
Components and systems 4
Test benches and gas assist systems 5
After-sales-service and research systems 6
Scope of application 7
Application examples 8 and 9
Model overview and type coding 10
Operating principle 11
Model selection 12 to 27
Operating pressures to 40 bar (580 psi) Operating pressures to 600 bar (8,700 psi)
DLE 2-1 12 DLE 30-1 20
DLE 2 12 DLE 30 20
DLE 2-1-2 13 DLE 5-30 21
DLE 2-2 13 DLE 15/30 21
Operating pressures to 100 bar (1,450 psi) DLE 30-1-2 22
DLE 5-1 14 DLE 30-2 22
DLE 5 14 DLE 5-30-2 23
DLE 2-5 15 DLE 15-30-2 23
DLE 5-1-2 15 Operating pressures to 1,500 bar (21,750 psi)
DLE 5-2 16 DLE 75-1 24
DLE 2-5-2 16 DLE 75 24
Operating pressures to 300 bar (4,350 psi) DLE 15-75 25
DLE 15-1 17 DLE 30-75 25
DLE 15 17 DLE 75-1-2 26
DLE 5-15 18 DLE 75-2 26
DLE 15-1-2 18 DLE 15-75-2 27
DLE 15-2 19 DLE 30-75-2 27
DLE 5-15-2 19
Booster station VP/70/700/35 700 bar (10,150 psi) 28
Booster station VP/120/500/300 500 bar (7,250 psi) 29
Compressor station VH/400/500 500 bar (7,250 psi) 30
Technical features of the MAXIMATOR Gas booster line 31
ÜberschriftCompany portrait
C.E.O. Henning Willig
Locations and technical
sales offices in Germany
Nordhausen factory
Zorge factory
3
We employ more than 220qualified and highly-motivatedstaff members in our producti-on centres in Zorge andNordhausen.
We aim to offer the bestcustomer service from ourfour technical offices inGermany, our qualifiedpartner companies andrepresentations locatedall over the world.
MAXIMATOR is one of the worldwide leading manufacturers of air drivenliquid pumps, air amplifiers, gas boosters, high pressure valves, fittings andtubing as well as associated products like pressure switches and furthercomponents for applications in high pressure technology.
All our systems and units comply with the applicable UVV [accidentprevention] regulations, the European Machine, Pressure Equipment andATEX Directives and, upon request, also conform to NACE specifications.
Our strict quality guidelines are certified to ISO 9001.
To ensure the continuation of future developments we are working in closecooperation with our customers, material and component suppliers,universities as well as with public and private organisations.
Components and systems
1 Pressure intensification of liquids and gases
Air driven liquid pumpsOperating pressures to 5,500 bar (79,750 psi)
Packaged pump systemsfor oil, water and otherliquids for the followingapplications:1 Tool hydraulics
1 Clamping hydraulics
1 Water hydraulics
Air amplifiers1 Operating pressures to 40 bar (580 psi)1 Selective amplification of shop air
Valves, fittings, tubingfor high pressure technology1 Stainless steel design in high manufacturing quality
1 Temperature range from –250°C(-418°F) to +650°C (1,202°F)
for liquids and gases1 Operating pressures
to max. 10,500 bar(152,250 psi)
Test benches and pressure generating systems1 Static pressure, burst pressure and pulse testing1 Leak and functional testing1 Autofrettage
4
Compressors, testingand regulating systems1 Centralised supply for
gas assist systems1 Testing and regulating
systems for shop airand gases
1 Complete systems to fillair bag gas cartridges
Hose industry
Diesel injection technology
Test benches for static pressure tests,burst tests and pulse tests:1 Hoses of all types1 Valves, fittings, gland assemblies1 Pressure gauges, pressure switches1 Pressure transducers, accumulators1 Coolers and air conditioning systems1 Diesel injection systems
Gas pressure methodThis special method is used in plasticsinjections moulding and provides thefollowing advantages
1 Material savings of up to 50%
1 Reduction of locking pressures
1 Avoidance of sink marks
We are in a position to testyour product for you in thefollowing fields:…Design
1 Constructional design recommendations1 Scientific development
…Serial production
1 Production supporting tests
1 Capacity extension at short notice
Test benches and gas assist systems
5
Specifically for the Oil and Gas industry we havedeveloped a range of standard units which aresuitable for these applications.
Features
The units are protected against mechanical andenvironmental damage by using a stainless steelframe which also helps with transportation of the unit.The control and operation elements are ergonomicallymounted into a control panel.
Available options
1 Stroke counter
1 Chart recorder
1 Pressure switch
1 Safety valve
Please ask for our brochure„On and Offshore Solutions“.
On- and Offshore Solutions
Offshore and service
Complete solutions for high pressure technology
ServiceMAXIMATOR Mobile Service – Testing at yourlocation with our test equipmentThe MAXIMATOR Mobile Service is available to performtesting at your site and provides the following service:
1 Maintenance of compressor stations and control modules
1 Pressure generation with mobile systems
1 Inspection and calibration of measuring instruments
1 Installation of tube lines and ring circuits
In-house testing serviceon most modern machines:1 Static pressure testing
1 Burst tests
1 Fatigue tests
Process consult for
1 Testing procedure
1 Gas assisted process
1 Mould design
Design and development,
manufacturing, commissioning,
servicing, repair, training
6
Scope of applications
The MAXIMATOR high pressure boosters are suitable forthe oil free compression of gases and air. Industrial gaseslike Argon, Helium, Hydrogen and Nitrogen can be com-pressed to operating pressures of 1,500 bar (21,750 psi),Oxygen to 350 bar (5,075 psi).Air driven boosters are an efficient alternative instead ofelectrically driven products and can be used in explosion-proof areas .
1 Pressure test with gas1 Gas transfer1 Gas recovery1 Charging of nitrogen accumulators1 Supply for isolating gas systems
1 Gas assisted injection moulding1 CO2 foaming1 Transfer of oxygen cylinders1 Charging of breathing air bottles1 Leak test
As a result of the wide range of models it is possibleto select the optimum booster for each application.Single stage, double acting or two stage boosters ora combination of these models can be used to achievedifferent operating pressures and flow capacities.
7
8
Application examples
Cleaning ofburner systems
Airbag systems
Cylinder charging
Pressure test
Blowing out contaminations through pressure blasting at 16 bar (232 psi)
Charging of airbag systems with Helium to 800 bar (11,600 psi)
Use remainingpressure for recharging
Leak test with high gas pressure
PC evaluation
Operating panel
Booster 1 Booster 2
Set value
Accumulator
Analog measuringvalue display
Test chamber
Actual valueevaluation
SampleInletN2
9
Application examples
Life-guard service
Transfer of oxygen in small cylinders
Colour changing systems
Plastic industry
Forming
The colour will be returned into the tank through a piggeable ball which is charged with pressure
Compression of gas and regulation for the gas assisted injection moulding
Precharging of hydraulic accumulators by nitrogen
Piggeableball
Shop air supply
Colour system
ColourBlue
ColourYellow
10
Model overview
Type coding
DLE XX - XX - X XX - XSpecial designC = CO2 serviceS = Oxygen service
Connections: Gas inlet / Gas outletG = BSP = StandardU = High pressure (9/16-18UNF) = OptionN = NPT = Option
Without = 1 Air drive head2 = 2 Air drive heads
Model
Boosters with one air drive head
Single acting, single stage (e.g. DLE15-1)
Boosters with two air drive heads
Single acting, single stage (e.g. DLE15-1-2)
Double acting, single stage (e.g. DLE15) Double acting, single stage (e.g. DLE15-2))
Double acting, two stages (e.g. DLE15-75) Double acting, two stages (e.g. DLE15-75-2)
PL Air drive PA inlet pressure
PB outlet pressure exhaust air
11
Operating principle
The MAXIMATOR boosters’ operatingprinciple is similar to a pressure intensifier.A large air piston is charged with lowpressure (air piston (3)) and works on a smallarea with high pressure (hp piston (2)). Thecontinuous operation is achieved by a pilotoperated 4/2 way valve (spool (4)). The spoolleads the drive air alternately on the upperand bottom surface of the air piston.The spool is piloted through two 2/2 wayvalves (pilot valves (7)) which are mechani-cally actuated through the air piston in itsend positions.The pilot valves charge and discharge thespool chamber.The hp piston supported by the check valves (inletcheck valve and outlet check valve (1)) delivers the flow.The outlet pressure is directly related to the set airdrive pressure.According to the formulas indicated in the table withtechnical features of the boosters, the static end pressurecan be calculated. At this pressure a force balance bet-ween drive section and gas section is achieved. The boo-ster stalls when this end pressure is reached, and doesnot consume any further air.
A pressure drop at the high pressure side or a pressureincrease at the drive side starts the booster automaticallyuntil the force balance is achieved again.Additionally the MAXIMATOR boosters can be switchedon and off automatically through MAXIMATOR air pilotswitches, contact gauges or external control devices.
12
Booster to 40 bar (580 psi)
Model: DLE2-1Flow: 150 lN/min (5.3 SCFM)at inlet pressure of 3 bar (43 psi), outlet pressure of6 bar (87 psi) and air drive pressure of 6 bar (87 psi)
Model: DLE2Flow: 190 lN/min (6.7 SCFM)at an inlet pressure of 3 bar (43 psi), outlet pressure of10 bar (145 psi) and air drive pressure of 6 bar (87 psi)
Technical features DLE 2-1
Pressure ratio 1:2
Max. compression ratio 1:10
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 0
Max. gas inlet pressure pA in bar (psi) 20 (290)
Max. permitted outlet pressure pB in bar (psi) 20 (290)
Formula to calculate gas outlet pressure pB 2 X pL
Displacement volume in cm3 (in3) 922 (56.26)
Air drive pA in bar (psi) 1-10
Air consumption in lN/min (SCFM) 400-1,980 (14.1– 69.9)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 15
Material of gas section Stainless steel/aluminium
Technical features DLE 2
Pressure ratio 1:2
Max. compression ratio 1:10
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 0
Max. gas inlet pressure pA in bar (psi) 40 (580)
Max. permitted outlet pressure pB in bar (psi) 40 (580)
Formula to calculate gas outlet pressure pB 2 X pL + pA
Displacement volume in cm3 (in3) 1,844 (112.52)
Air drive pA in bar (psi) 1-10
Air consumption in lN/min (SCFM) 400-1,980 (14.1– 69.9)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 20
Material of gas section Stainless steel/aluminium
1 large displacement volume1 less pulsation
1 small dimension1 price attractive solution
Outlet pressure (bar) Outlet pressure (bar)
Flow
(l N/m
in)
Flow
(l N/m
in)
13
Boosters to 40 bar (580 psi)
Model: DLE 2-1-2Flow: 160 lN/min (5.65 SCFM)at inlet pressure of 3 bar (43psi) outlet pressure of10 bar (145 psi) and air drive pressure of 6 bar (87 psi)
Model: DLE 2-2Flow: 190 lN/min (6.7 SCFM)at an inlet pressure of 3 bar (43 psi), outlet pressureof 16 bar (232 psi) and air drive pressure of 6 bar (87 psi)
Technical features DLE 2-1-2
Pressure ratio 1:4
Max. compression ratio 1:10
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 0
Max. gas inlet pressure pA in bar (psi) 40 (580)
Max. permitted outlet pressure pB in bar (psi) 40 (580)
Formula to calculate gas outlet pressure pB 4 X pL
Displacement volume in cm3 (in3) 922 (56.26)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 22
Material of gas section Stainless steel/aluminium
Technical features DLE 2-2
Pressure ratio 1:4
Max. compression ratio 1:10
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 0
Max. gas inlet pressure pA in bar (psi) 40 (580)
Max. permitted outlet pressure pB in bar (psi) 40 (580)
Formula to calculate gas outlet pressure pB 4 X pL + pA
Displacement volume in cm3 (in3) 1,844 (112.53)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 25
Material of gas section Stainless steel/aluminium
1 high outlet pressure1 less pulsation
1 small dimension1 high outlet pressure
Flow
(l N/m
in)
Flow
(l N/m
in)
Outlet pressure (bar) Outlet pressure (bar)
14
Boosters to 100 bar (1,450 psi)
Model: DLE 5-1Flow: 145 lN/min (5.12 SCFM)at inlet pressure of 8 bar (116 psi) outlet pressureof 15 bar (217 psi) and air drive pressure of 6 bar (87 psi)
Model: DLE 5Flow: 280 lN/min (9.89 SCFM) at an inlet pressureof 8 bar (116 psi), bar and an outlet pressure of20 bar (290 psi) and air drive pressure of 6 bar (87 psi)
Technical features DLE 5-1
Pressure ratio 1:5
Max. compression ratio 1:15
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 2 (29)
Max. gas inlet pressure pA in bar (psi) 50 (725)
Max. permitted outlet pressure pB in bar (psi) 50 (725)
Formula to calculate gas outlet pressure pB 5 X pL
Displacement volume in cm3 (in3) 373 (22.76)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 15
Material of gas section Stainless steel/aluminium
Technical features DLE 5
Pressure ratio 1:5
Max. compression ratio 1:15
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 2 (29)
Max. gas inlet pressure pA in bar (psi) 100 (1,450)
Max. permitted outlet pressure pB in bar (psi) 100 (1,450)
Formula to calculate gas outlet pressure pB 5 X pL + pA
Displacement volume in cm3 (in3) 746 (45.52)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 20
Material of gas section Stainless steel/aluminium
1 high flow rate1 less pulsation
1 compact desigh1 price attractive solution
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
15
Boosters to 100 bar (1,450 psi)
Model: DLE 2-5Flow: 80 lN/min (2.82 SCFM)at inlet pressure of 2 bar (29 psi) outlet pressure of25 bar (362 psi) and air drive pressure of 6 bar (87 psi)
Model: DLE 5-1-2Flow: 145 lN/min (5.12 SCFM)at an inlet pressure of 8 bar (116 psi), outlet pressure of30 bar (435 psi) and air drive pressure of 6 bar (87 psi)
Technical features DLE 2-5
Pressure ratio 1:5 / 1:5
Max. compression ratio 1:25
Stage ratio 1:2.5
Min. gas inlet pressure pA in bar (psi) 0
Max. gas inlet pressure pA in bar (psi) 0.8 X pL
Max. permitted outlet pressure pB in bar (psi) 100 (1,450)
Formula to calculate gas outlet pressure pB 5 X pL + 2.5 X pA
Displacement volume in cm3 (in3) 922 (0.03)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 20
Material of gas section Stainless steel/aluminium
Technical features DLE 5-1-2
Pressure ratio 1:10
Max. compression ratio 1:15
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 4 (58)
Max. gas inlet pressure pA in bar (psi) 100 (1,450)
Max. permitted outlet pressure pB in bar (psi) 100 (1,450)
Formula to calculate gas outlet pressure pB 10 X pL
Displacement volume in cm3 (in3) 373 (0.01)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 22
Material of gas section Stainless steel/aluminium
1 high flow rate1 low inlet pressure
1 high inlet pressure1 high outlet pressure
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
16
Boosters to 100 bar (1,450 psi)
Model: DLE 5-2Flow: 210 lN/min (7.41 SCFM)at inlet pressure of 8 bar (116 psi) outlet pressure of40 bar (580 psi) and air drive pressure of 6 bar (87 psi)
Model: DLE 2-5-2Flow: 104 lN/min (3.67 SCFM)at an inlet pressure of 4 bar (58 psi), outlet pressure of40 bar (580 psi) and air drive pressure of 6 bar (87 psi)
Technical features DLE 5-2
Pressure ratio 1:10
Max. compression ratio 1:15
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 4 (58)
Max. gas inlet pressure pA in bar (psi) 100 (1,450)
Max. permitted outlet pressure pB in bar (psi) 100 (1,450)
Formula to calculate gas outlet pressure pB 10 X pL + pA
Displacement volume in cm3 (in3) 746 (45.52)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 25
Material of gas section Stainless steel/aluminium
Technical features DLE 2-5-2
Pressure ratio 1:4 / 1:10
Max. compression ratio 1:25
Stage ratio 1:2.5
Min. gas inlet pressure pA in bar (psi) 0
Max. gas inlet pressure pA in bar (psi) 1.6 X pL
Max. permitted outlet pressure pB in bar (psi) 100 (1,450)
Formula to calculate gas outlet pressure pB 10 X pL + 2.5 pA
Displacement volume in cm3 (in3) 922 (56.26)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/2 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 25
Material of gas section Stainless steel/aluminium
1 high outlet pressure1 low inlet pressure
1 high flow rate1 less pulsation
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
17
Boosters to 300 bar (4,350 psi)
Model: DLE 15-1Flow: 95 lN/min (3.35 SCFM)at inlet pressure of 15 bar (217 psi) and outlet pressureof 50 bar (725 psi), air drive pressure of 6 bar (87 psi)
Model: DLE 15Flow: 160 lN/min (5.65 SCFM)at an inlet pressure of 15 bar (217 psi) and outlet pressureof 60 bar (870 psi), air drive pressure of 6 bar (87 psi)
Technical features DLE 15-1
Pressure ratio 1:15
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 7 (101)
Max. gas inlet pressure pA in bar (psi) 150 (2,175)
Max. permitted outlet pressure pB in bar (psi) 150 (2,175)
Formula to calculate gas outlet pressure pB 15 X pL
Displacement volume in cm3 (in3) 122 (7.44)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 13
Material of gas section Stainless steel
Technical features DLE 15
Pressure ratio 1:15
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 7 (101)
Max. gas inlet pressure pA in bar (psi) 300 (4,350)
Max. permitted outlet pressure pB in bar (psi) 300 (4,350)
Formula to calculate gas outlet pressure pB 15 X pL + pA
Displacement volume in cm3 (in3) 244 (14.88)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 18
Material of gas section Stainless steel
1 compact design1 price attractive solution
1 large displacement volume1 less pulsation
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
18
Boosters to 300 bar (4,350 psi)
Model: DLE 5-15Flow: 75 lN/min (2.64 SCFM)at inlet pressure of 4 bar (58 psi) and outlet pressureof 60 bar (870 psi), air drive pressure of 6 bar (87 psi)
Model: DLE 15-1-2Flow: 90 lN/min (3.17 SCFM)at an inlet pressure of 15 bar (217 psi) and outlet pressureof 80 bar (1,160 psi), air drive pressure of 6 bar (87 psi)
Technical features DLE 5-15
Pressure ratio 1:5 / 1:15
Max. compression ratio 1:45
Stage ratio 1:3
Min. gas inlet pressure pA in bar (psi) 2 (29)
Max. gas inlet pressure pA in bar (psi) 1,6 X pL
Max. permitted outlet pressure pB in bar (psi) 300 (4,350)
Formula to calculate gas outlet pressure pB 15 X pL + 3 X pA
Displacement volume in cm3 (in3) 373 (22.76)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 19
Material of gas section Stainless steel/aluminium
Technical features DLE 15-1-2
Pressure ratio 1:30
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 10 (145)
Max. gas inlet pressure pA in bar (psi) 300 (4,350)
Max. permitted outlet pressure pB in bar (psi) 300 (4,350)
Formula to calculate gas outlet pressure pB 30 X pL
Displacement volume in cm3 (in3) 122 (7.44)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 20
Material of gas section Stainless steel
1 large pressure ratio1 compact design
1 high flow rate1 low inlet pressure
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
19
Boosters to 300 bar (4,350 psi)
Model: DLE 15-2Flow: 130 lN/min (4.59 SCFM)at inlet pressure of 15 bar (217 psi), outlet pressure of100 bar (1,450 psi) and air drive pressure of 6 bar (87 psi)
Model: DLE 5-15-2Flow: 102 lN/min (3.6 SCFM)at an inlet pressure of 10 bar (145 psi), outlet pressure of120 bar (1,740 psi) and air drive pressure of 6 bar (87 psi)
Technical features DLE 15-2
Pressure ratio 1:30
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 10 (145)
Max. gas inlet pressure pA in bar (psi) 300 (4,350)
Max. permitted outlet pressure pB in bar (psi) 300 (4,350)
Formula to calculate gas outlet pressure pB 30 X pL + pA
Displacement volume in cm3 (in3) 244 (14.88)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 23
Material of gas section Stainless steel
Technische Daten DLE 5-15-2
Pressure ratio 1:10 / 1:30
Max. compression ratio 1:45
Stage ratio 1:3
Min. gas inlet pressure pA in bar (psi) 2 (29)
Max. gas inlet pressure pA in bar (psi) 3,2 X pL
Max. permitted outlet pressure pB in bar (psi) 300 (4,350)
Formula to calculate gas outlet pressure pB 30 X pL + 3 X pA
Displacement volume in cm3 (in3) 373 (22.76)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 24
Material of gas section Stainless steel/aluminium
1 large pressure ratio1 less pulsation
1 high outlet pressure1 low inlet pressure
Flow
(l N/m
in)
Outlet pressure (bar) Outlet pressure (bar)
Flow
(l N/m
in)
20
Boosters to 600 bar (8,700 psi)
Model: DLE 30-1Flow: 82 lN/min (2.89 SCFM)at inlet pressure of 25 bar (362 psi), outlet pressure of82 bar (1,189 psi) and air drive pressure of 6 bar (87 psi)
Model: DLE 30Flow: 125 lN/min (4.41 SCFM)at an inlet pressure of 25 bar (362 psi), outlet pressure of120 bar (1,740 psi) and air drive pressure of 6 bar (87 psi)
Technical features DLE 30-1
Pressure ratio 1:30
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 15 (217)
Max. gas inlet pressure pA in bar (psi) 300 (4,350)
Max. permitted outlet pressure pB in bar (psi) 300 (4,350)
Formula to calculate gas outlet pressure pB 30 X pL
Displacement volume in cm3 (in3) 60 (3.66)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 13
Material of gas section Stainless steel
Technical features DLE 30
Pressure ratio 1:30
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 15 (217)
Max. gas inlet pressure pA in bar (psi) 600 (8,700)
Max. permitted outlet pressure pB in bar (psi) 600 (8,700)
Formula to calculate gas outlet pressure pB 30 X pL + pA
Displacement volume in cm3 (in3) 110
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 18
Material of gas section Stainless steel
1 high flow rate1 less pulsation
1 compact design1 price attractive solution
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
21
Boosters to 600 bar (8,700 psi)
Model: DLE 5-30Flow: 63 lN/min (2.22 SCFM)at inlet pressure of 3 bar (43 psi), outlet pressure of100 bar (1,450 psi) and air drive pressure of 6 bar (87 psi)
Model: DLE 15-30Flow: 98 lN/min (3.46 SCFM)at an inlet pressure of 15 bar (217 psi), outlet pressure of100 bar (1,450 psi) and air drive pressure of 6 bar (87 psi)
Technical features DLE 5-30
Pressure ratio 1:5 / 1:30
Max. compression ratio 1:90
Stage ratio 1:6
Min. gas inlet pressure pA in bar (psi) 2 (29)
Max. gas inlet pressure pA in bar (psi) 0,5 X pL
Max. permitted outlet pressure pB in bar (psi) 600 (8,700)
Formula to calculate gas outlet pressure pB 30 X pL + 6 X pA
Displacement volume in cm3 (in3) 373 (22.76)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 19
Material of gas section Stainless steel/aluminium
Technical features DLE 15-30
Pressure ratio 1:5 / 1:30
Max. compression ratio 1:40
Stage ratio 1:2
Min. gas inlet pressure pA in bar (psi) 7 (101)
Max. gas inlet pressure pA in bar (psi) 7,5 X pL
Max. permitted outlet pressure pB in bar (psi) 600 (8,700)
Formula to calculate gas outlet pressure pB 30 X pL + 2 X pA
Displacement volume in cm3 (in3) 122 (7.44)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 19
Material of gas section Stainless steel
1 high flow rate1 low inlet pressure
1 high flow rate1 high inlet pressure
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
22
Boosters to 600 bar (8,700 psi)
Model: DLE 30-1-2Flow: 82 lN/min (2.89 SCFM)at inlet pressure of 25 bar (362 psi) and outlet pressureof 150 bar (2,175 psi), air drive pressure of 6 bar (87 psi)
Model: DLE 30-2Flow: 125 lN/min (4.41 SCFM)at an inlet pressure of 25 bar (362 psi) and outlet pressureof 150 bar (2,175 psi), air drive pressure of 6 bar (87psi)
Technical features DLE 30-1-2
Pressure ratio 1:60
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 20 (290)
Max. gas inlet pressure pA in bar (psi) 600 (8,700)
Max. permitted outlet pressure pB in bar (psi) 600 (8,700)
Formula to calculate gas outlet pressure pB 60 X pL
Displacement volume in cm3 (in3) 60 (3.66)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 20
Material of gas section Stainless steel
Technical features DLE 30-2
Pressure ratio 1:60
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 20 (290)
Max. gas inlet pressure pA in bar (psi) 600 (8,700)
Max. permitted outlet pressure pB in bar (psi) 600 (8,700)
Formula to calculate gas outlet pressure pB 60 X pL + pA
Displacement volume in cm3 (in3) 120 (7.32)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 23
Material of gas section Stainless steel
1 high compression1 high flow rate
1 high compression1 compact design
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
23
Boosters to 600 bar (8,700 psi)
Model: DLE 5-30-2Flow: 52 lN/min (1.83 SCFM)at inlet pressure of 4 bar (58 psi) and outlet pressureof 150 bar (2,175 psi), air drive pressure of 6 bar (87 psi)
Model: DLE 15-30-2Flow: 105 lN/min (3.7 SCFM)at an inlet pressure of 30 bar (435 psi) and outlet pressureof 200 bar (2,900 psi), air drive pressure of 6 bar (87 psi)
Technical features DLE 5-30-2
Pressure ratio 1:10 / 1:60
Max. compression ratio 1:90
Stage ratio 1:6
Min. gas inlet pressure pA in bar (psi) 2 (29)
Max. gas inlet pressure pA in bar (psi) 1 X pL
Max. permitted outlet pressure pB in bar (psi) 600 (8,700)
Formula to calculate gas outlet pressure pB 60 X pL + 6 X pA
Displacement volume in cm3 (in3) 373 (22.76)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 24
Material of gas section Stainless steel/aluminium
Technical features DLE 15-30-2
Pressure ratio 1:30 / 1:60
Max. compression ratio 1:40
Stage ratio 1:2
Min. gas inlet pressure pA in bar (psi) 7 (101)
Max. gas inlet pressure pA in bar (psi) 15 X pL
Max. permitted outlet pressure pB in bar (psi) 600 (8,700)
Formula to calculate gas outlet pressure pB 60 X pL + 2 X pA
Displacement volume in cm3 (in3) 122 (7.44)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 24
Material of gas section Stainless steel
1 high compression1 low inlet pressure
1 high flow rate1 low inlet pressure
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
24
Boosters to 1,500 bar (21,750 psi)
Model: DLE 75-1Flow: 85 lN/min (2.29 SCFM)at inlet pressure of 70 bar (1,015 psi) and outlet pressureof 240 bar (3,480 psi), air drive pressure of 6 bar (87 psi)
Model: DLE 75Flow: 150 lN/min (5.29) at an inlet pressure of 70 bar(1,015 psi) and outlet pressure of 300 bar (4,350 psi),air drive pressure of 6 bar (87 psi)
Technical features DLE 75-1
Pressure ratio 1:75
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 35 (507)
Max. gas inlet pressure pA in bar (psi) 750 (10,875)
Max. permitted outlet pressure pB in bar (psi) 750 (10,875)
Formula to calculate gas outlet pressure pB 75 X pL
Displacement volume in cm3 (in3) 25 (1.52)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 13
Material of gas section Stainless steel
Technical features DLE 75
Pressure ratio 1:75
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 35 (507)
Max. gas inlet pressure pA in bar (psi) 1,500 (21,750)
Max. permitted outlet pressure pB in bar (psi) 1,500 (21,750)
Formula to calculate gas outlet pressure pB 75 X pL + pA
Displacement volume in cm3 (in3) 50 (3.05)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 18
Material of gas section Stainless steel
1 large displacement volume1 less pulsation
1 compact design1 price attractive solution
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
25
Boosters to 1,500 bar (21,750 psi)
Model: DLE 15-75Flow: 75 lN/min (2.64 SCFM)at inlet pressure of 11 bar (159 psi) and outlet pressureof 200 bar (2,900 psi), air drive pressure of 6 bar (87 psi)
Model: DLE 30-75Flow: 95 lN/min (3.35 SCFM)at an inlet pressure of 30 bar (435 psi) and outlet pressureof 250 bar (3,625 psi), air drive pressure of 6 bar (87 psi)
Technical features DLE 15-75
Pressure ratio 1:15 / 1:75
Max. compression ratio 1:100
Stage ratio 1:5
Min. gas inlet pressure pA in bar (psi) 7 (101)
Max. gas inlet pressure pA in bar (psi) 2,5 X pL
Max. permitted outlet pressure pB in bar (psi) 1,500 (21,750)
Formula to calculate gas outlet pressure pB 75 X pL + 5 X pA
Displacement volume in cm3 (in3) 122 (7.44)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 19
Material of gas section Stainless steel
Technical features DLE 30-75
Pressure ratio 1:30 / 1:75
Max. compression ratio 1:50
Stage ratio 1:2.5
Min. gas inlet pressure pA in bar (psi) 15 (217)
Max. gas inlet pressure pA in bar (psi) 12 X pL
Max. permitted outlet pressure pB in bar (psi) 1,500 (21,750)
Formula to calculate gas outlet pressure pB 75 X pL + 2.5 X pA
Displacement volume in cm3 (in3) 60 (3.66)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 400-1,980 (14.13-69.92)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 19
Material of gas section Stainless steel
1 low inlet pressure1 high outlet pressure
1 low inlet pressure1 high flow rate
Flow
(l N/m
in)
Outlet pressure (bar)Fl
ow(l N
/min
)
Outlet pressure (bar)
26
Boosters to 1,500 bar (21,750 psi)
Model: DLE 75-1-2Flow: 90 lN/min (3.17 SCFM)at inlet pressure of 70 bar (1,015 psi) and outlet pressureof 400 bar (5,800 psi), air drive pressure of 6 bar (87 psi)
Model: DLE 75-2Flow: 130 lN/min (4.59 SCFM) at an inlet pressureof 70 bar (1,015 psi) and outlet pressure of 400 bar(5,800 psi), air drive pressure of 6 bar (87 psi)
Technical features DLE 75-1-2
Pressure ratio 1:150
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 45 (652)
Max. gas inlet pressure pA in bar (psi) 1,500 (21,750)
Max. permitted outlet pressure pB in bar (psi) 1,500 (21,750)
Formula to calculate gas outlet pressure pB 150 X pL
Displacement volume in cm3 (in3) 25 (1.52)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 20
Material of gas section Stainless steel
Technical features DLE 75-2
Pressure ratio 1:150
Max. compression ratio 1:20
Stage ratio –
Min. gas inlet pressure pA in bar (psi) 45 (652)
Max. gas inlet pressure pA in bar (psi) 1,500 (21,750)
Max. permitted outlet pressure pB in bar (psi) 1,500 (21,750)
Formula to calculate gas outlet pressure pB 150 X pL + pA
Displacement volume in cm3 (in3) 50 (3.05)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 23
Material of gas section Stainless steel
1 less pulsation1 high flow rate
1 high pressure ratio1 compact design
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
27
Boosters to 1,500 bar (21,750 psi)
Model: DLE 15-75-2Flow: 50 lN/min (1.76 SCFM)at inlet pressure of 15 bar (217 psi) and outlet pressureof 500 bar (7,250 psi), air drive pressure of 6 bar (87 psi)
Model: DLE 30-75-2Flow: 60 lN/min (2.11 SCFM)at an inlet pressure of 40 bar (580 psi) and outlet pressureof 600 bar (8,700 psi), air drive pressure of 6 bar (87 psi)
Technical features DLE 15-75-2
Pressure ratio 1:30 / 1:150
Max. compression ratio 1:100
Stage ratio 1:5
Min. gas inlet pressure pA in bar (psi) 7 (101)
Max. gas inlet pressure pA in bar (psi) 5 X pL
Max. permitted outlet pressure pB in bar (psi) 1,500 (21,750)
Formula to calculate gas outlet pressure pB 150 X pL + 5 X pA
Displacement volume in cm3 (in3) 122 (7.44)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 24
Material of gas section Stainless steel
Technical features DLE 30-75-2
Pressure ratio 1:60 / 1:150
Max. compression ratio 1:50
Stage ratio 1:2.5
Min. gas inlet pressure pA in bar (psi) 15 (217)
Max. gas inlet pressure pA in bar (psi) 24 X pL
Max. permitted outlet pressure pB in bar (psi) 1,500 (21,750)
Formula to calculate gas outlet pressure pB 150 X pL + 2.5 X pA
Displacement volume in cm3 (in3) 60 (3.66)
Air drive pA in bar (psi) 1-10 (14.5-145)
Air consumption in lN/min (SCFM) 600-2,400 (21.2-84.8)
Connection: Gas inlet 1/4 BSP
Connection: Gas outlet 1/4 BSP
Connection: Drive air 3/4 BSP
Net weight (kg) 24
Material of gas section Stainless steel
1 high pressure ratio1 low inlet pressure
1 high pressure ratio1 high inlet pressure
Flow
(l N/m
in)
Outlet pressure (bar)
Flow
(l N/m
in)
Outlet pressure (bar)
28
Booster station, 70 lN/min – 700 bar
Model VP/70/700/35
1 Wide range of application1 Compact design1 Portable unit1 Easy to operate1 Oil and lubrication free compression1 Dry running1 No electrical auxiliary energy is needed
This booster station is designed for a widerange of application. I. e. pressure testscan be realized, gas cylinders filled oraccumulators recharged.To operate this system, the gas inlet,the gas outlet and the drive air have tobe connected. Other installations arenot necessary. Since the componentsare reduced to a minimum, an easy andreliable operation can be guaranteed.
Technical features
Outlet pressure 75 – 700 bar (1,087 – 10,150 psi)
Flow capacity at an inlet pressure of 10 bar (145 psi) 70 lN/min (2.47 SCFM) at 200 bar (2,900 psi) outlet pressure
Flow capacity at an inlet pressure of 15 bar (217 psi) 103 lN/min (3.63 SCFM) at 200 bar (2,900 psi) outlet pressure
Time of operation 50 %
Gas inlet pressure 7 – 35 bar (101 – 507 psi), but max. 3.5*air drive pL
Air drive pressure 1 – 10 bar (14.5 – 145 psi)
Air consumption 400 – 1,980 lN/min (14.13 – 69.92 SCFM)
Connection: Gas inlet 1/2 BSP
Connection: Gas outlet 1/4 BSP
Connection: Air drive 1/2 BSP
Panel Stainless steel
Dimensions (W x D x H) 850 X 410 X 410 mm
Net weight 28 kg
Inlet
LiquidN2
Booster
Outlet
Compressed airsupply from customer
29
Booster station, 120 lN/min – 500 bar
Model VP/120/500/300
1 Wide range of application1 Compact design1 Mobile system1 Automatic operation1 Oil and lubrication free compression1 Dry running
This booster station is an individually operating,air driven booster station in compact design.The booster delivers continuously into a storage tankand guarantees that the pressure inside of the receiveris always between the set limit values.Due to the design of this system the gas cylinder canbe emptied down to 10 bar and the gas volume usedin an optimum way. Through theintegrated pilot switches, regula-tor and safety relief elements, anautomatic operation without acontinuous observation wouldbe possible.
Technical features
Outlet pressure 20 – 500 bar (290 – 7,250 psi), adjustable through pressure reducer
Flow capacity at an inlet pressure of 18 bar (261 psi) 120 lN/min (4.23 SCFM)
Flow capacity at an inlet pressure of 300 bar (4,350 psi) 400 lN/min (14.12 SCFM)
Time of operation 50 %
Nitrogen inlet M16 X 1.5 (Ermeto 8S)
Nitrogen outlet pressure M16 X 1.5 (Ermeto 8S)
Nitrogen accumulator 5 liter / 550 bar (7,975 psi)
Nitrogen inlet pressure (from vaporiser) 20 – 36 bar (290 – 522 psi)
Nitrogen cylinder supply 10 – 300 bar (145 – 4,350 psi)
Connection: Nitrogen cylinder (2 pces.) W 24.32 X 1/14 200 bar (2,900 psi) / 300 bar (4,350 psi)
Air drive pressure 4 – 10 bar (58 – 145 psi)
Connection: Air drive 3/4 BSP
Air consumption 400 – 1980 lN/min (14.13-69.92 SCFM)
Cabinet Steel, coloured, on castors
Dimensions (W x D x H) 720 X 560 X 1,230 mm
Net weight (packed weight) 211kg (315 kg)
Booster 2Booster 1
Compressed airsupply from customer
LiquidN2
30
Compressor station, 400 lN/min – 500 bar
Model VH/400/500R
1 High flow rate1 Automatic operation1 Oil and lubrication free compression1 Dry running
This compressor station is an independently working,hydraulic driven system which compresses the gases inthree stages, and integrated hydraulic system.The individual compressor stages are operated throughproportional valves, in this way a silent operation at alow sound emission can be realized.The compressor delivers a continuous flow into a storagetank and thus ensures that the pressure inside this tankis always within the adjustable limiting values.The required pressures can befreely set in the operating panel.
Technical features
Outlet pressure 200 – 500 bar (2,900 – 7,250 psi), variable
Flow at 14 bar (203 psi) inlet pressure 400 lN/min (14.12 SCFM)
Gas inlet M16 X 1.5 (Ermeto 8S)
Gas outlet M16 X 1.5 (Ermeto 8S)
High pressure accumulator 10 liter / 550 bar (7,975 psi)
Gas inlet (i. e. from the vaporiser) 8 – 36 bar (116 – 522 psi)
Cooling water connection 3/4 BSP 0.8 m3/h (28.25 SCFM/h) / T inlet = 14° C (57°C)
Power supply max. 22 kW
Supply from gas cylinders 10 – 300 bar (145 – 4,350 psi)
Cabinet Coloured steel
Dimensions (W x D x H) 2,180 X 1,000 X 1,900 mm
Net weight 1,600 kg
Compressor 1 Compressor 2 Compressor 3
Hydraulic system
LiquidN2
31
Type
Pres
sure
Com
-Su
ctio
npr
essu
reM
ax.o
utle
tFo
rmul
afo
rmax
.Di
spla
cem
ent
Max
Conn
ectio
nsM
ax.
Wei
ght
ratio
pres
sion
Min
Max
pres
sure
end
pres
sure
invo
lum
epe
rcy
cle
Inle
t*O
utle
top
erat
ing
kgi
ratio
*pA
pBba
r(ps
i)do
uble
stro
kefr
eque
ncy
pres
sure
(i 1/i
2)ba
rps
iba
rps
iba
rps
icm
3cu
.in1/
min
°C
DLE
2-1
1:2
1:1
00
020
290
2029
02*
pL92
256
.26
100
1/2
BSP
1/2
BSP
6015
DLE
5-1
1:5
1:1
52
2950
725
5072
55*
pL37
322
.76
110
1/2
BSP
1/2
BSP
6015
DLE
15-1
1:1
51
:20
710
215
02,
175
150
2,17
515
*pL
122
7.44
130
1/4
BSP
1/4
BSP
100
13DL
E30
-11
:30
1:2
015
218
300
4,35
030
04,
350
30*p
L60
3.66
130
1/4
BSP
1/4
BSP
100
13DL
E75
-11
:75
1:2
035
508
750
10,8
7575
010
,875
75*p
L25
1.53
130
1/4
BSP
1/4
BSP
100
13
DLE
21
:21
:10
00
4058
040
580
2*pL
+pA
1844
112.
5390
1/2
BSP
1/2
BSP
6020
DLE
51
:51
:15
229
100
1,45
010
01,
450
5*pL
+pA
746
45.5
211
01/
2BS
P1/
2BS
P60
20DL
E15
1:1
51
:20
710
230
04,
350
300
4,35
015
*pL
+pA
244
14.8
912
01/
4BS
P1/
4BS
P10
018
DLE
301
:30
1:2
015
218
600
8,70
060
08,
700
30*p
L+
pA12
07.
3212
01/
4BS
P1/
4BS
P10
018
DLE
751
:75
1:2
035
508
1,50
021
,750
1,50
021
,750
75*p
L+
pA50
3.05
130
1/4
BSP
1/4
BSP
100
18
DLE
2-5
1:2
/1:5
1:2
50
00.
8*PL
100
1,45
05*
pL+
2.5*
pA92
256
.26
100
1/2
BSP
1/2
BSP
6020
DLE
5-15
1:5
/1:1
51
:45
229
1,6*
PL30
04,
350
15*p
L+
3*pA
373
22.7
611
01/
2BS
P1/
4BS
P10
019
DLE
5-30
1:5
/1:3
01
:90
229
0,5*
PL60
08,
700
30*p
L+
6*pA
373
22.7
611
01/
2BS
P1/
4BS
P10
019
DLE
15-3
01:
15/1
:30
1:4
07
102
7,5*
PL60
08,
700
30*p
L+
2*pA
122
7.44
120
1/4
BSP
1/4
BSP
100
19DL
E15
-75
1:15
/1:7
51
:100
710
22,
5*PL
1,50
021
,750
75*p
L+
5*pA
122
7.44
120
1/4
BSP
1/4
BSP
100
19DL
E30
-75
1:30
/1:7
51
:50
1521
812
*PL
1,50
021
,750
75*p
L+
2.5*
pA60
3.66
120
1/4
BSP
1/4
BSP
100
19
DLE
2-1-
21
:41
:10
00
4058
040
580
4*pL
922
56.2
610
01/
2BS
P1/
2BS
P60
22DL
E5-
1-2
1:1
01
:15
458
100
1,45
010
01,
450
10*p
L37
322
.76
110
1/2
BSP
1/2
BSP
6022
DLE
15-1
-21
:30
1:2
010
145
300
4,35
030
04,
350
30*p
L12
27.
4411
01/
4BS
P1/
4BS
P10
020
DLE
30-1
-21
:60
1:2
020
290
600
7,25
060
08,
700
60*p
L60
3.66
120
1/4
BSP
1/4
BSP
100
20DL
E75
-1-2
1:1
501
:20
4565
31,
500
21,7
501,
500
21,7
5015
0*pL
251.
5312
01/
4BS
P1/
4BS
P10
020
DLE
2-2
1:4
1:1
00
4058
040
580
4*pL
+pA
1844
112.
5390
1/2
BSP
1/2
BSP
6025
DLE
5-2
1:1
01
:15
458
100
1,45
010
01,
450
10*p
L+
pA74
645
.52
100
1/2
BSP
1/2
BSP
6025
DLE
15-2
1:3
01
:20
1014
530
04,
350
300
4,35
030
*pL
+pA
244
14.8
910
01/
4BS
P1/
4BS
P10
023
DLE
30-2
1:6
01
:20
2029
060
08,
700
600
8,70
060
*pL
+pA
120
7.32
100
1/4
BSP
1/4
BSP
100
23DL
E75
-21
:150
1:2
045
653
1,50
021
,750
1,50
021
,750
150*
pL+
pA50
3.05
100
1/4
BSP
1/4
BSP
100
23
DLE
2-5-
21:
4/1
:10
1:2
50
01.
6*PL
100
1,45
010
*pL
+2.
5*pA
922
56.2
690
1/2
BSP
1/2
BSP
6025
DLE
5-15
-21:
10/1
:30
1:4
52
293,
2*PL
300
4,35
030
*pL
+3*
pA37
322
.76
100
1/2
BSP
1/4
BSP
100
24DL
E5-
30-2
1:10
/1:6
01
:90
229
1*PL
600
8,70
060
*pL
+6*
pA37
322
.76
100
1/2
BSP
1/4
BSP
100
24DL
E15
-30-
21:
30/1
:60
1:4
07
102
15*P
L60
08,
700
60*p
L+
2*pA
122
7.44
100
1/4
BSP
1/4
BSP
100
24DL
E15
-75-
21:
30/1
:150
1:1
007
102
5*PL
1,50
021
,750
150*
pL+
5*pA
122
7.44
100
1/4
BSP
1/4
BSP
100
24DL
E30
-75-
21:
60/1
:150
1:5
015
218
24*P
L1,
500
21,7
5015
0*pL
+2.
5*pA
603.
6610
01/
4BS
P1/
4BS
P10
024
*Com
pres
sion
ratio
=O
utle
tpre
ssur
e/S
uctio
npr
essu
reTh
em
axim
umpe
rmitt
edou
tletp
ress
ure
is60
to10
0°C.
Cool
ing
byw
ater
isav
aila
ble
asan
optio
n.Th
em
axim
umst
roke
freq
uenc
yis
at90
Abb
revi
atio
ns:p
L=
Air
driv
e;pA
=Su
ctio
npr
essu
re;p
B=
Out
letp
ress
ure
to10
0cy
cles
perm
inut
efo
r50%
duty
cycl
e.Su
ctio
npr
essu
res
low
erth
anth
ein
dica
ted
"pA
min
"ar
eno
tper
mitt
edan
dca
nca
use
dam
mag
eson
the
unit.
MAXIMATOR GmbH
High-pressure pumpsfor different liquids(oil, water, emulsion etc.)1 easy to maintain, ex-proof
1 low energy consumption
1 operating pressures up to max. 5,500 bar
Air Amplifiers1 For increasing air pressure
1 Specific air pressure amplificationto suit your requirements
1 Connection to electrical supply not necessary
1 Operating pressure max. 40 bar
Gas Assist Injection Systems1 Compressor stations with pneumatic,
electric or hydraulic drive
1 Control modules with 2, 4 or 8 valves
1 Control modules with integrated booster station
1 External core pull control systems
High Pressure Valves, Fittings, Tubing1 Stainless steel design
1 Temperatures from -250° C to +650° Cfor liquids and gases
1 Maximum outlet pressures up to 10,500 bar
Special Test Benches1 Static pressure test
1 Bursting pressure test
1 Impulse pressure test
1 Hoses, pipes, valves, hydraulic componentscan be tested
Your Representative:
Factory MAXIMATOR GmbHWalkenrieder Str. 15 Telephon: ++49 5586 / 8030D-37449 Zorge / Germany Facsimile: ++49 5586 / 8 0330 40
Internet www.maximator.de eMail: [email protected]
All technical and dimensional information subject to change. All general Terms and Conditionsof sale, including limitations of our liability, apply to all products and services sold.
1475
.049
4|1
000
DSB
04/2
007